Comparing objective visual quality impairment detection in 2D and 3D video sequences

N. Staelens, Arnaud Boussaer, N. Vercammen, G. V. hoogenbemt, B. Vermeulen, P. Demeester
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引用次数: 1

Abstract

Thanks to the availability of 3D-capable televisions and bluray players, 3D content is made accessible in the home. Recently, an extension of the H.264/AVC video coding standard has been defined for encoding 3D video content. This extension, called Multiview Video Coding, allows inter-view prediction resulting in a better compression efficiency. However, due to these inter-view dependencies impairments in one view caused by e.g. packet losses can lead to degradations in other views. Research has already been conducted towards estimating packet loss visibility in H.264/AVC encoded sequences. In this paper, we investigate the possibility of using an existing decision tree-based classifier for estimating impairment visibility in 3D MVC encoded sequences. Our results show that, in the case of losing entire pictures, it is possible to estimate packet loss visibility in 3D MVC encoded sequences with a high accuracy by only taking into account a limited number of parameters.
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比较二维和三维视频序列的客观视觉质量损伤检测
由于具备3D功能的电视和蓝光播放器的出现,3D内容在家里也能看得到。最近,H.264/AVC视频编码标准的扩展被定义用于编码3D视频内容。这个扩展,称为多视图视频编码,允许访问视图预测导致更好的压缩效率。然而,由于这些视图间的依赖关系在一个视图中造成的损害,例如数据包丢失,可能导致其他视图的降级。对H.264/AVC编码序列中丢包可见性的估计已经进行了研究。在本文中,我们研究了使用现有的基于决策树的分类器来估计3D MVC编码序列中损伤可见性的可能性。我们的结果表明,在丢失整个图片的情况下,仅考虑有限数量的参数,就可以以高精度估计3D MVC编码序列中的数据包丢失可见性。
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